Fine-line structuring of microwave components on LTCC substrates

Abstract: Low Temperature Co-fired Ceramics (LTCC) are used in a wide range of RF and microwave applications. The ceramic multilayer technology provides a truly three-dimensional circuit technology, hermetical sealing, hybrid integration, and favorable microwave properties at moderate costs. In order to take advantage of high frequencies with guided wavelengths of the order of millimeters, a precision of lines and spaces better than the resolution of 50 /lm available with standard patterning methods is crucial. Examples… Show more

“…However, due to unavoidable manufacturing tolerances and variations, an additional geometrical process-specific deviation occurs that may affect the microwave performance, especially for filters and small structures. One solution to minimise the influence of manufacturing tolerances is the incorporation of new structuring technologies like photo-structurable pastes and resinates [11]. This enhances resolution and reduces the relative error caused by screen printing.…”

On-Orbit Verification of a 4 × 4 Switch Matrix for Space Applications based on the Low Temperature Co-fired Ceramics Technology

“…However, due to unavoidable manufacturing tolerances and variations, an additional geometrical process-specific deviation occurs that may affect the microwave performance, especially for filters and small structures. One solution to minimise the influence of manufacturing tolerances is the incorporation of new structuring technologies like photo-structurable pastes and resinates [11]. This enhances resolution and reduces the relative error caused by screen printing.…”

On-Orbit Verification of a 4 × 4 Switch Matrix for Space Applications based on the Low Temperature Co-fired Ceramics Technology

Applications of Microwave Dielectrics

High resolution patterning of LTCC based microwave structures for Q/V-band satellite applications